Nanomechanics of graphene oxide-bacteriophage based self-assembled porous composites.
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Volume
10
Pagination
15618 - ?
DOI
10.1038/s41598-020-72372-1
Journal
Sci Rep
Issue
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Show full item recordAbstract
Graphene oxide, integrated with the filamentous bacteriophage M13, forms a 3D large-scale multifunctional porous structure by self-assembly, with considerable potential for applications. We performed Raman spectroscopy under pressure on this porous composite to understand its fundamental mechanics. The results show that at low applied pressure, the [Formula: see text] bonds of graphene oxide stiffen very little with increasing pressure, suggesting a complicated behaviour of water intercalated between the graphene layers. The key message of this paper is that water in a confined space can have a significant impact on the nanostructure that hosts it. We introduced carbon nanotubes during the self-assembly of graphene oxide and M13, and a similar porous macro-structure was observed. However, in the presence of carbon nanotubes, pressure is transmitted to the [Formula: see text] bonds of graphene oxide straightforwardly as in graphite. The electrical conductivity of the composite containing carbon nanotubes is improved by about 30 times at a bias voltage of 10 V. This observation suggests that the porous structure has potential in applications where good electrical conductivity is desired, such as sensors and batteries.
Authors
Sun, Y; Passaretti, P; Hernandez, I; Gonzalez, J; Liu, W; Rodriguez, F; Dunstan, DJ; Goldberg Oppenheimer, P; Humphreys, CJCollections
- Physics and Astronomy [1503]